Students’ and teachers’ perceptions for composition of ionic compounds

IF 2.2 Q2 EDUCATION, SCIENTIFIC DISCIPLINES Chemistry Teacher International : best practices in chemistry education Pub Date : 2022-04-06 DOI:10.1515/cti-2021-0032
A. W. Wisudawati, H. Barke, Abayneh Lemma Gurmu, S. Agung
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引用次数: 2

Abstract

Abstract We investigate how chemistry-teacher students and teachers interpret chemical equations regarding the sub-microscopic level of solid ionic salts and their solutions. Addressing participants’ skills in making sense of chemical formulas might significantly influence students’ conceptual understanding: ionic salts formulas like Na2CO3(s), CaCO3(s), MgO(s) were established in the questionnaire. A coding system used to reveal participants’ reasoning correspond to their misconceptions. The enrolled participants were 101 undergraduate chemistry education students from Indonesia and Ethiopia and 24 chemistry teachers from Indonesia and Tanzania. Our results showed students’ and teachers’ difficulties in figuring out the involved ions of provided salts and interpreting the chemical formulas. Consequently, general chemistry learning should provide better fundamental knowledge on the submicroscopic level based on involved particles like atoms, ions, and molecules. It would also be helpful to introduce an appropriate sequence of historical ideas to find the existence of atoms, ions, and molecules.
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学生和教师对离子化合物组成的看法
摘要:我们研究了化学教师学生和教师如何解释亚微观水平的固体离子盐及其溶液的化学方程。解决参与者对化学式的理解能力可能会显著影响学生的概念理解:在问卷中建立了Na2CO3(s)、CaCO3(s)、MgO(s)等离子盐的公式。一个编码系统用来揭示参与者的推理与他们的误解相对应。被招募的参与者是来自印度尼西亚和埃塞俄比亚的101名本科化学教育学生以及来自印度尼西亚和坦桑尼亚的24名化学教师。我们的研究结果表明,学生和教师在确定所提供的盐的参与离子和解释化学式方面存在困难。因此,普通化学学习应该在亚微观层面上提供更好的基础知识,这些知识是基于原子、离子和分子等相关粒子的。引入适当的历史观念序列来发现原子、离子和分子的存在也会有所帮助。
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